Self-sterility, self-incompatibility and xenia: a review of the mechanisms of cross-pollination benefits in animal-pollinated crops.

IF 3.6 2区生物学 Q1 PLANT SCIENCES

Annals of botany Pub Date : 2025-03-20 DOI:10.1093/aob/mcaf047

Stan Chabert, Rachel E Mallinger

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引用次数: 0

Abstract

Background: While there are multiple mechanisms of self-incompatibility (SI), known to promote outbreeding in angiosperms, these are not well synthesized and described across major global crops. This can lead to misinterpretations of biological processes involved in crop pollination, fertilization and fertility, in particular by confusing them with an additional overlooked mechanism causing self-sterility (SS), early-acting inbreeding depression (EID). Another overlooked mechanism, called xenia, results in increased quality of seeds and fruits through cross-pollination even in self-compatible and self-fertile crops.

Scope: The aim of this review was to describe and synthesize all the known mechanisms of SI and SS encountered in animal-pollinated (zoophilous) crops, and additional mechanisms by which cross-pollination can be beneficial for crop production. All the known zoophilous crops presenting SS, SI or xenia were quantified and described.

Key results: 134 zoophilous crops were found to be self-sterile, including 52 displaying complete SS and 82 displaying partial SS. We identified all the known mechanisms of SI and SS in these crops, including gametophytic SI, sporophytic SI, heteromorphic SI, late-acting SI and EID. In addition, 58 zoophilous crops were found to display xenia, including 22 that are self-compatible and completely self-fertile. In total, 156 zoophilous crops were identified as benefitting from cross-pollination for the quantity and quality of seed and fruit production.

Conclusions: While previous reviews focused on quantifying the benefit of animal pollinators for crop production, they did not synthesize the mechanisms underlying pollinator dependence for such crops. Our review provides valuable knowledge about crop pollination requirements in general and more particularly the benefits of cross-pollination across crops ranging in self-fertility. This information could help growers make suitable management decisions regarding their field and orchard planting designs, specifically by mixing mutually suitable cultivars in crops displaying SS, SI, or benefiting from xenia.

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背景：虽然已知有多种自交不亲和（SI）机制可促进被子植物的外交，但这些机制在全球主要作物中并没有得到很好的综合和描述。这可能会导致对作物授粉、受精和生育过程中的生物过程产生误解，特别是将它们与另一种被忽视的导致自交不亲和（SS）的机制--早效近交抑制（EID）相混淆。另一种被忽视的机制被称为 "异花授粉"（xenia），通过异花授粉提高种子和果实的质量，即使在自交和自交作物中也是如此：本综述旨在描述和综合动物授粉（嗜动物）作物中所有已知的SI和SS机制，以及异花授粉有利于作物生产的其他机制。对所有已知的嗜动物作物中出现的SS、SI或异花授粉进行了量化和描述：发现134种嗜动物作物具有自交不育现象，其中52种表现为完全自交不育，82种表现为部分自交不育。我们确定了这些作物中所有已知的SI和SS机制，包括配子体SI、孢子体SI、异形SI、晚发型SI和EID。此外，还发现 58 种嗜动物作物表现出雌雄同株现象，包括 22 种自交和完全自交的作物。共有 156 种亲动物作物因异花传粉而受益，从而提高了种子和果实的产量和质量：尽管以前的综述侧重于量化动物授粉者对作物生产的益处，但它们并没有综合这些作物依赖授粉者的内在机制。我们的综述提供了有关作物授粉需求的宝贵知识，尤其是不同自交结实率作物间异花授粉的益处。这些信息可帮助种植者在田间和果园种植设计方面做出适当的管理决策，特别是通过在显示 SS、SI 或受益于异花授粉的作物中混合相互适合的栽培品种。

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来源期刊

Annals of botany 生物-植物科学

CiteScore

7.90

自引率

4.80%

发文量

138

审稿时长

3 months

期刊介绍： Annals of Botany is an international plant science journal publishing novel and rigorous research in all areas of plant science. It is published monthly in both electronic and printed forms with at least two extra issues each year that focus on a particular theme in plant biology. The Journal is managed by the Annals of Botany Company, a not-for-profit educational charity established to promote plant science worldwide. The Journal publishes original research papers, invited and submitted review articles, ''Research in Context'' expanding on original work, ''Botanical Briefings'' as short overviews of important topics, and ''Viewpoints'' giving opinions. All papers in each issue are summarized briefly in Content Snapshots , there are topical news items in the Plant Cuttings section and Book Reviews . A rigorous review process ensures that readers are exposed to genuine and novel advances across a wide spectrum of botanical knowledge. All papers aim to advance knowledge and make a difference to our understanding of plant science.